JCI Insight (Jun 2021)

Single-cell immunophenotyping of the skin lesion erythema migrans identifies IgM memory B cells

  • Ruoyi Jiang,
  • Hailong Meng,
  • Khadir Raddassi,
  • Ira Fleming,
  • Kenneth B. Hoehn,
  • Kenneth R. Dardick,
  • Alexia A. Belperron,
  • Ruth R. Montgomery,
  • Alex K. Shalek,
  • David A. Hafler,
  • Steven H. Kleinstein,
  • Linda K. Bockenstedt

Journal volume & issue
Vol. 6, no. 12

Abstract

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The skin lesion erythema migrans (EM) is an initial sign of the Ixodes tick–transmitted Borreliella spirochetal infection known as Lyme disease. T cells and innate immune cells have previously been shown to predominate the EM lesion and promote the reaction. Despite the established importance of B cells and antibodies in preventing infection, the role of B cells in the skin immune response to Borreliella is unknown. Here, we used single-cell RNA-Seq in conjunction with B cell receptor (BCR) sequencing to immunophenotype EM lesions and their associated B cells and BCR repertoires. We found that B cells were more abundant in EM in comparison with autologous uninvolved skin; many were clonally expanded and had circulating relatives. EM-associated B cells upregulated the expression of MHC class II genes and exhibited preferential IgM isotype usage. A subset also exhibited low levels of somatic hypermutation despite a gene expression profile consistent with memory B cells. Our study demonstrates that single-cell gene expression with paired BCR sequencing can be used to interrogate the sparse B cell populations in human skin and reveals that B cells in the skin infection site in early Lyme disease expressed a phenotype consistent with local antigen presentation and antibody production.

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